Bioversity International, International Rice Research Institute, West Africa Rice Development Association. 2007. Descriptors for wild and cultivated (Oryza spp.). Rome, Italy: International Plant Genetic Resources Institute: 72.Boote K J, Pickering N B, Baker J T, Allen L H Jr. 1994. Modeling leaf and canopy photosynthesis of rice in response to carbon dioxide and temperature. Int Rice Res Notes, 19: 47–48.Ceccareli S, Grando S, Maatougui M, Michael M, Slash M, Haghparast R, Rahmanian M, Taheri A, Al-Yassin A, Benbelkacem A, Labdi M, Mimoun H, Nachit M. 2010. Plant breeding and climate changes. J Agric Sci, 148: 627–637.Catherine C, Gemma N D, Victoria te Velde of Agulhas. 2012. Managing climate extremes and disasters in Asia: Lessons from the IPCC SREX reports. Climate and Development Knowledge Network. Available from http://www.ifrc.org/docs/IDRL/ Managing Climate Extremes Asia.pdf. March 5, 2013.Hansen J, Lacis A, Rind D, Russell G, Stone P, Fung I, Ruedy R, Lerner J. 1984. Climate sensitivity: Analysis of feedback mechanisms. In: Hansen J, Takahashi T. Climate Process and Climate Sensitivity. Washington DC: American Geophysical Union: 130–163.Horie T, Matsui T, Nakagawa H, Omasa K. 1996. Effect of elevated CO2 and global climate change on rice yield in Japan. In: Omasa K, Kai K, Toda H, Uchijima Z, Yoshimo M. Climate Change and Plants in East Asia. Tokyo: Springer-Verlag: 39–56.Horie T, Centeno H G S, Nakagawa H, Matsui T. 1997. Effect of elevated CO2 and climate change on rice production in East and Southeast Asia. In: Oshima Y, Spratt E, Stewart J W B. Proceeding of the International Scientific Symposium on Asian Paddy Fields: Their environmental, historical, cultural, and economic aspects under various physical conditions. Canada, Saskatchewan: College of Agriculture University Saskatchewan: 218.Imaki T, Jyokei K, Hara K. 1982. Flower opening under controlled environment in rice plants. Bulletin of the Faculty of Agriculture, Shimane University: 16: 1–7.IPCC. 2012. Summary for policymakers. In: Field C B, Barros V, Stocker T F, Qin D, Dokken D J, Ebi K L, Mastrandrea M D, Mach K J, Plattner G K, Allen S K, Tignor M, Midgley P M. Managing the Risks of Extreme Events and Disasters to Advance Climate Change Adaptation: A Special Report of Working Groups I and II of the Intergovernmental Panel on Climate Change. Cambridge, UK and New York, USA: Cambridge University Press: 1–19.Jagadish S V K, Cairns J, Lafitte R, Wheeler T R, Price A H, Craufurd P Q. 2010. Genetic analysis of heat tolerance at anthesis in rice. Crop Sci, 50: 1633–1641. Jagadish S V K, Septiningsih E M, Kohli A, Thomson M J, Ye C, Redo?a E, Kumar A, Gregorio G B, Wassmann R, Ismail A M, Singh R K. 2012. Genetic advances in adapting rice to a rapidly changing climate. J Agron Crop Sci, 198(5): 360–373.Mackill D J, Coffman W R, Rutger J N. 1982. Pollen shedding and combining ability for high temperature tolerance in rice. Crop Sci, 22(4): 730–733.Manigbas N L, Sebastian L S. 2007. Breeding for High Temperature Tolerance in the Philippines: Proceedings of the International Workshop on Cool Rice for a Warmer World. Huazhong Agricultural Univeristy, Wuhan, Hubei, China. March 26–30, 2007.Matsui T, Omasa K, Horie T. 1997a. High temperature-induced spikelet sterility of japonica rice at flowering in relation to air temperature, humidity, and wind velocity conditions. Jpn J Crop Sci, 66(3): 449–455.Matsui T, Namuco O S, Zisca L H, Horie T. 1997b. Effects of high temperature and CO2 concentration on spikelet sterility in indica rice. Field Crops Res, 51(3): 213–219.Matsui T, Omasa K, Horie T. 1999a. Rapid swelling of pollen grains in response to floret opening unfolds anther locules in rice (Oryza sativa L.). Plant Prod Sci, 2(3): 196–199.Matsui T, Omasa K, Horie T. 1999b. Mechanism of anther dehiscence in rice (Oryza sativa L.). Ann Bot, 84(4): 501–506.Matsui T, Omasa K, Horie T. 2000. High temperature at flowering inhibits swelling of pollen grains, a driving force for thecea dehiscence in rice (Oryza sativa L.). Plant Prod Sci, 3: 430–434.Matsui T, Omasa K, Horie T. 2001. The difference in sterility due to high temperatures during the flowering period among japonica rice varieties. Plant Prod Sci, 4(2): 90–93.Matsushima S, Ikewada H, Maeda A, Honda S, Niki H. 1982. Studies on rice cultivation in the tropics: 1. Yielding and ripening responses of the rice plant to the extremely hot and dry climate in Sudan. Jpn J Trop Agric, 26(1): 19–25.Matthews R B, Kropff M J, Horie T, Bachelet D. 1997. Simulating the impact of climate change on rice production in Asia and evaluating options for adaptation. Agric Syst, 54(3): 399–425.Osada A, Saciplapa V, Rahong M, Dhammanuvong S, Chakrabandho H. 1973. Abnormal occurrence of empty grains of indica rice plants in the dry, hot season in Thailand. Jpn J Crop Sci, 42(1): 103–109.Peng S B, Huang J L, Sheehy J E, Laza R C, Visperas R M, Zhong X H, Centeno G S, Khush G S, Cassman K G. 2004. Rice yield decline with higher night temperature from global warming. Proc Natl Acad Sci USA, 101(27): 9971–9975.Redona E D, Manigbas N L, Laza M A, Sierra S N, Bartolome V I, Nora L A, Barroga W V, Noriel A J M. 2009. Identifying heat-tolerant rice genotypes under different environments. SABRAO J Breed Genet, 41(suppl).Satake T, Yoshida S. 1978. High temperature induced sterility in indica rice at flowering. Jpn J Crop Sci, 47(1): 6–17.Shah F, Huang J, Cui K, Nie L, Shah T, Chen C, Wang K. 2011. Impact of high-temperature stress on rice plant and its traits related to tolerance. J Agric Sci, 149(5): 545–556. |